Many of the devices and systems used in modern industry are becoming progressively smaller and have reached the nanoscale domain. Nanofabrication aims at building nanoscale structures, which can act as components, devices, or systems, in large quantities at potentially low cost. Nanofabrication is vital to all nanotechnology fields, especially for the realization of nanotechnology that involves the traditional areas across engineering and science.
Many of the devices and systems used in modern industry are becoming progressively smaller and have reached the nanoscale domain. Nanofabrication aims at building nanoscale structures, which can act as components, devices, or systems, in large quantities at potentially low cost. Nanofabrication is vital to all nanotechnology fields, especially for the realization of nanotechnology that involves the traditional areas across engineering and science.
Gary Wiederrecht is the Group Leader of the Nanophotonics Group in the Center for Nanoscale Materials at Argonne National Laboratory. His research interests center on the photochemistry and photophysics of nanoparticles and periodic assemblies, hybrid nanostructures, photochemical energy conversion, and non-linear optical responses resulting from photoinduced charge separation. His experimental expertise is in the areas of ultrafast optical spectroscopy and scanning probe microscopy, including near-field scanning optical microscopy. He has received an R&D100 award, the Department of Energy Young Scientist Award, and the Presidential Early Career Award for Scientists and Engineers. He has authored or co-authored approximately 80 peer-reviewed research articles, and works collaboratively with scientists around the world. He enjoys traveling, nature, and spending time with his family.
Chemist, Group Leader, Nanophotonics Group
Argonne National Laboratory
Chemistry Division, E161
9700 South Cass Avenue
Argonne, IL 60439-4831
Inhaltsangabe
Scanning probe-based lithography; E-beam lithography; E-beam lithography; Nanoimprint lithography; Attoliter inkjet printing; Patterned molecular binding on surfaces as a route to nanostructured surfaces; Convection assisted assembly of nanostructures; Directed assembly of nanostructures; Bio-inspired self-assembled films
Scanning probe-based lithography; E-beam lithography; E-beam lithography; Nanoimprint lithography; Attoliter inkjet printing; Patterned molecular binding on surfaces as a route to nanostructured surfaces; Convection assisted assembly of nanostructures; Directed assembly of nanostructures; Bio-inspired self-assembled films
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